Sentences with phrase «team of engineers used»

On review, NASA found that one mistake, one tiny overlooked detail, caused the loss of the $ 125 million spacecraft: One team of engineers used English measurements for navigation, whereas another used metric measurements.

Designed by our team of engineers using Intel 8th Gen processors and GTX 10 Series graphics, you can configure this mobile pc to tackle any task.

Leo Widrich, co-founder of the social media app Buffer (used by more than 1 million people worldwide to manage their social networks), said the team moved out of San Francisco because their engineers couldn't get visas to work in the U.S..

After more than a decade of research on the use of machine learning to detect disease - causing mutations in DNA, Brendan Frey, biomedical engineering professor at the University of Toronto, this week launched his company, Deep Genomics, to bring the technology his team developed to the public at large.

What started as an engineering project crossed over to help our marketing team publish high quality content, which our customer success team is now using as part of an upcoming webinar to existing customers.

«FireEye has recently uncovered 11 iOS apps within the Hacking Team's arsenals that utilize Masque Attacks, marking the first instance of targeted iOS malware being used against non-jailbroken iOS devices,» wrote FireEye senior research scientist engineer Zhaofeng Chen on the company's findings.

Faraday's team of engineers built the device from scratch rather than using off - the - shelf parts so they could reduce the total number of components, giving the inverter a simpler design.

Meanwhile, Lofelt says it will use the additional financing to invest in expanding its Berlin - based engineering team to accelerate development of new user experiences and technologies.

New funding will be used to extend sales and marketing into Europe and APAC, expand engineering and data science teams to accelerate the company's new data analytics products, and fund potential acquisitions of key data source partners.

Visa Inc. is financing a team of engineers at its Bengaluru office to research further uses for the blockchain.

The company plans to use the funds to further expand its world - class engineering team and to accelerate the development of its field - proven agricultural robots.

PartnerHero provides customer service, design, and engineering for startups, but we also have an in - house team of product managers, designers, and web developers building homegrown tools for our teams and our partners to use.

According to the company, the funds will be used to help expand the company's reach in both the domestic and international markets, while also strengthening the engineering and marketing teams, increasing the number of banking partners and developing an app that will be launched by the end of this month.

Part workshop and part incubator, our team of analysts, engineers and product specialists combine to discover new use cases and prototype solutions rapidly.

In addition, Eagle engineers and new product development teams use the centers as hubs for the continued production of innovative x-ray inspection solutions to address specific challenges within the food and beverage market.

LOMA's engineering teams have employed our Designed to Survive philosophy to deliver great metal detection sensitivity in a package that is easy to install; easy to use; easy to clean and maintain; can withstand the arduous food production environments; and ultimately brings a brilliant cost of ownership.

«Since the impact presented no technical problems for the health and safety of the instrument, the team is only now announcing this event as a fascinating example of how engineering data can be used, in ways not previously anticipated, to understand what is happing to the spacecraft over 236,000 miles (380,000 kilometers) from the Earth,» said John Keller, LRO project scientist from NASA's Goddard Space Flight Center in Greenbelt, Maryland.

Letter from AAAS CEO Rush Holt to Deputy Attorney General Rod Rosenstein Regarding Fingerprint Reporting Guidelines [March 28, 2018] AAAS Statement on FY 2018 Omnibus Bill Funds for Scientific Research [March 23, 2018] AAAS Statement on FY 2018 Omnibus Funding Bill [March 22, 2018] AAAS CEO Rush Holt Statement on Death of Rep. Louise Slaughter [March 16, 2018] AAAS CEO Urges U.S. President and Congress to Lift Funding Restrictions on Gun Violence Research [March 13, 2018] AAAS Statements on Elections and Paper Ballots [March 9, 2018] AAAS Statement on President's 2019 Budget Plan [February 12, 2018] AAAS Statement on FY 2018 Budget Deal and Continuing Resolution [February 9, 2018] AAAS Statement on President Trump's State of the Union Address [January 30, 2018] AAAS Statement on Continuing Resolution Urges FY 2018 Final Omnibus Bill [January 22, 2018] AAAS Statement on U.S. Government Shutdown [January 20, 2018] Community Statement to OMB on Science and Government [December 19, 2017] AAAS CEO Response to Media Report on Use of «Science - Based» at CDC [December 15, 2017] Letter from AAAS and the American Physical Society to Iranian President Hassan Rouhani Regarding Scientist Ahmadreza Djalali [December 15, 2017] Multisociety Letter Conference Graduate Student Tax Provisions [December 7, 2017] Multisociety Letter Presses Senate to Preserve Higher Education Tax Benefits [November 29, 2017] AAAS Multisociety Letter on Tax Reform [November 15, 2017] AAAS Letter to U.S. House of Representatives Ways and Means Committee on Tax Cuts and Jobs Act (H.R. 1)[November 7, 2017] AAAS Statement on Release of National Climate Assessment Report [November 3, 2017] AAAS Statement on EPA Science Adviser Boards [October 31, 2017] AAAS Statement on EPA Restricting Scientist Communication of Research Results [October 25, 2017] Statement of the Board of Directors of the American Association for the Advancement of Science on Scientific Freedom and Responsibility [October 18, 2017] Scientific Societies» Letter on President Trump's Visa and Immigration Proclamation [October 17, 2017] AAAS Statement on U.S. Withdrawal from UNESCO [October 12, 2017] AAAS Statement on White House Proclamation on Immigration and Visas [September 25, 2017] AAAS Statement from CEO Rush Holt on ARPA - E Reauthorization Act [September 8, 2017] AAAS Speaks Out Against Trump Administration Halt of Young Immigrant Program [September 6, 2017] AAAS Statement on Trump Administration Disbanding National Climate Assessment Advisory Committee [August 22, 2017] AAAS CEO Rush Holt Issues Statement On Death of Former Rep. Vern Ehlers [August 17, 2017] AAAS CEO Rush Holt and 15 Other Science Society Leaders Request Climate Science Meeting with EPA Administrator Scott Pruitt [July 31, 2017] AAAS Encourages Congressional Appropriators to Invest in Research and Innovation [July 25, 2017] AAAS CEO Urges Secretary of State to Fill Post of Science and Technology Adviser [July 13, 2017] AAAS and ESA Urge Trump Administration to Protect Monuments [July 7, 2017] AAAS Statement on House Appropriations Bill for the Department of Energy [June 28, 2017] Scientific Organizations Statement on Science and Government [June 27, 2017] AAAS Statement on White House Executive Order on Cuba Relations [June 16, 2017] AAAS Statement on Paris Agreement on Climate Change [June 1, 2017] AAAS Statement from CEO Rush Holt on Fiscal Year 2018 Budget Proposal [May 23, 2017] AAAS thanks the Congress for prioritizing research and development funding in the FY 2017 omnibus appropriations [May 9, 2017] AAAS Statement on Dismissal of Scientists on EPA Scientific Advisory Board [May 8, 2017] AAAS CEO Rush Holt Statement on FY 2017 Appropriations [May 1, 2017] AAAS CEO Statement on Executive Order on Climate Change [March 28, 2017] AAAS leads an intersociety letter on the HONEST Act [March 28, 2017] President's Budget Plan Would Cripple Science and Technology, AAAS Says [March 16, 2017] AAAS Responds to New Immigration Executive Order [March 6, 2017] AAAS CEO Responds to Trump Immigration and Visa Order [January 28, 2017] AAAS CEO Rush Holt Statement on Federal Scientists and Public Communication [January 24, 2017] AAAS thanks leaders of the American Innovation and Competitiveness Act [December 21, 2016] AAAS CEO Rush Holt raises concern over President - Elect Donald Trump's EPA Director Selection [December 15, 2016] AAAS CEO Rush Holt Statement Following the House Passage of 21st Century Cures Act [December 2, 2016] Letter from U.S. scientific, engineering, and higher education community leaders to President - elect Trump's transition team [November 23, 2016] Letter from AAAS CEO Rush Holt to Senate Leaders and Letter to House Leaders to pass a FY 2017 Omnibus Spending Bill [November 15, 2016] AAAS reaffirms the reality of human - caused climate change [June 28, 2016]

The research team led by Schneider; David Go, Rooney Family Associate Professor of Engineering in aerospace and mechanical engineering; and Jason Hicks, associate professor of chemical and biomolecular engineering, discovered that because the nitrogen molecules are activated by the plasma, the requirements on the metal catalysts are less stringent, allowing less expensive materials to be used throughout the process.

This type of research involves interdisciplinary teams of climate - change scientists, biologists, geneticists, modellers and engineers who are using and developing new technologies and research platforms to unlock the vast stores of information within plant genomes.

To find out if that was the case, he teamed up with John Goutsias, Ph.D., professor of electrical and computer engineering at the Johns Hopkins Whiting School of Engineering, to find a way to measure this controlled type of randomness, scientifically termed epigenetic stochasticity, by using the information - theoretic concept of Shannon entropy.

In an amazing feat of tissue engineering, Anthony Atala and his research team at the Children's Hospital in Boston are creating new organs in the laboratory using patients» own cells and by employing the same technology used to clone Dolly the sheep.

The UVA team produced the Ebola protein using an engineered form of Escherichia coli bacteria as a protein factory.

Rodgers adds: «It's essential to demonstrate that high - performance computing simulations can generate realistic results and our team will work with engineers to evaluate the computed motions, so they can be used to understand the resulting distribution of risk to infrastructure and ultimately to design safer energy systems, buildlings and other infrastructure.»

The research team — including graduate student and first author Jeffrey Fisher, postdoctoral fellow Songkil Kim and senior research engineer Peter Kottke — used low volatility solvents such as ethylene glycol, dissolving a salt of silver in the liquid.

The team of Marc Walton, research associate professor of materials science and engineering at Northwestern University, used techniques like hyperspectral imaging and photometric stereo, which reveals the surface shape of objects.

A team led by engineers at the University of California San Diego has used data mining and computational tools to discover a new phosphor material for white LEDs that is inexpensive and easy to make.

In the last year, a team of engineers in Hamburg has used techniques developed to model stresses on aircraft parts to understand the kinds of blows the soldiers suffered.

The team's findings, published in Proceedings of the National Academy of Sciences today, suggest new applications in areas such as tissue engineering and soft robotics where hydrogel is commonly used.

Now, a team from the University of Rochester in New York, led by neurobiologist Martha C. Bohn, reports promising results using a less invasive scheme: The researchers injected engineered viruses directly into the afflicted brain tissue of rats.

So a team of researchers led by mechanical engineer Scott White of the University of Illinois, Urbana - Champaign, set out to see if they could give plastic composites — materials composed of two or more components that are typically used for the most demanding applications — a bit more longevity.

In their experiments the University of Michigan team, led by chemical engineer Xiaoxia Lin, achieved yields of up to 62 percent, the highest reached so far using CBP.

Working at the Linac Coherent Light Source (LCLS) X-ray laser at the Department of Energy's (DOE's) SLAC National Accelerator Laboratory, the scientists then used a newly designed injection system, engineered by a team from Arizona State University, to stream the gel into the path of the X-ray pulses, which hit the crystals and produced patterns used to reconstruct a high - resolution, 3 - D model of the receptor.

To create a virtual version of the hobbit brain, Falk's colleague, engineer Kirk Smith, of the Mallinckrodt Institute of Radiology in St. Louis, used three - dimensional CAT scans that Morwood's team had taken of its fossilized skull and braincase.

A team of biomedical engineers at Vanderbilt University headed by Assistant Professor Melissa Skala has developed the technique, which uses fluorescence imaging to monitor the response of three - dimensional chunks of tumors removed from patients and exposed to different anti-cancer drugs.

While teams used a variety of engineering strategies to enhance their cells» chemotactic ability, the most successful cells were an adapted version of Dicty with increased activity of a particular protein, Ric8, that enhanced G - protein signaling, helping chemotaxis in shallow chemical gradients.

Mr. Goldstein, a PhD candidate at the Hofstra North Shore - LIJ School of Medicine, has been working with a team of surgeons at the North Shore - LIJ Health System for the past year on determining if 3D printing and tissue engineering could be used for tracheal repair and replacement.

To quantitatively test these questions, the team performed micro-CT scans of 12 fossil horse species then used engineering «beam bending» analysis to calculate how much stress each species» lower leg bones were experiencing during normal movement and high - speed running.

Using genetically engineered mice created for their studies, the team identified a set of biomarkers of kidney damage — a hallmark of the disorder — and demonstrated that antioxidant therapy protected kidney function in the mice.

Now, a team led by microbiologist Tim Kunkel of The Rockefeller University in New York City has shown that at least two crops — lettuce and tobacco — can be engineered without using antibiotic resistance genes.

Under the direction of Dr. David C. Van Aken, Curators» Teaching Professor of metallurgical engineering, the Missouri S&T team has used an atomic modeling method known as density functional theory to identify alloying elements to create the dual TRIP character of these new steels.

And as a result of this never - before - used orbit — advanced and fine - tuned by NASA engineers and other members of the Transiting Exoplanet Survey Satellite (TESS) team — the Explorer mission led by Ricker will be perfectly positioned to map the locations of more than 500 transiting exoplanets, extrasolar planets that periodically eclipse each one's host star.

Through iGEM, interdisciplinary teams of supervised students or community lab members throughout the world engineer genetic systems, using standardized biological parts, to tackle a broad variety of global synthetic biology challenges, from producing sustainable chemicals to detecting environmental contaminants.

The team — which also includes U-M associate professor of mechanical engineering Kevin Pipe, mechanical engineering graduate researcher Chen Li and materials science and engineering graduate student Apoorv Shanker — used a chemical process to expand and straighten the molecule chains.

But in the absence of federal law regulating the use of autonomous vehicles and driver - assist technology, the U.S. government could simply stand back and allow companies to put more self - driving cars on public roads to collect the necessary safety data, says Alain Kornhauser, a transportation engineer and adviser for Princeton University's Autonomous Vehicle Engineering team.

Now a team of British and American researchers has used genetic engineering to equip these biological production lines with the sets of tools they need to produce a range of tailor - made compounds.

You might not expect it from a sport that evolved out of bootleggers racing their moonshine down twisty Appalachian roads, but modern racing teams use computational fluid dynamics simulations, wind tunnels, and the highly technical know - how of engineers to eke milliseconds out of each driver's lap time.

Led by Dr. Peter Glazer, chair of therapeutic radiology, Dr. Mark Saltzman, chair of biomedical engineering, and Dr. Marie Egan, professor of pediatrics and of cellular and molecular physiology, the collaborative team used synthetic molecules similar to DNA — called peptide nucleic acids, or PNAs — as well as donor DNA, to edit the genetic defect.

A team of engineers at Drexel University might have done just that, according to research recently published in IEEE Transactions on Robotics about using electric fields to direct the robots in a fluid environment.

Using a combination of human or specially engineered mouse cells in vitro and in vivo animal models, study senior investigator Judy Lieberman, MD, PhD; study lead investigator Farokh Dotiwala, PhD, with a team lead by the Brazilian parasitologist Ricardo Gazzinelli, DSc, DVM, found that when an immune killer cell, such as a T - cell or natural killer (NK) cell, encounters a cell infected with any of three intracellular parasites (Trypanosoma cruzi, Toxoplasma gondii or Leishmania major), it releases three proteins that together kill both the parasite and the infected cell: